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Spatially resolved thermoelectric effects in<i>operando</i>semiconductor–metal nanowire heterostructures

Nadine Gächter, Fabian Könemann, Masiar Sistani, Maximilian G. Bartmann, Marilyne Sousa, Philipp Staudinger, Alois Lugstein, Bernd Gotsmann

2020Nanoscale19 citationsDOIOpen Access PDF

Abstract

The thermoelectric properties of a nanoscale germanium segment connected by aluminium nanowires are studied using scanning thermal microscopy. The germanium segment of 168 nm length features atomically sharp interfaces to the aluminium wires and is surrounded by an Al2O3 shell. The temperature distribution along the self-heated nanowire is measured as a function of the applied electrical current, for both Joule and Peltier effects. An analysis is developed that is able to extract the thermal and thermoelectric properties including thermal conductivity, the thermal boundary resistance to the substrate and the Peltier coefficient from a single measurement. Our investigations demonstrate the potential of quantitative measurements of temperature around self-heated devices and structures down to the scattering length of heat carriers.

Topics & Concepts

NanowireHeterojunctionSemiconductorMaterials scienceThermoelectric effectMetalNanotechnologyOptoelectronicsEngineering physicsPhysicsMetallurgyThermodynamicsAdvanced Thermoelectric Materials and DevicesThermal properties of materialsThermal Radiation and Cooling Technologies
Spatially resolved thermoelectric effects in<i>operando</i>semiconductor–metal nanowire heterostructures | Litcius